Component conditional fault tolerance of hierarchical folded cubic networks

For the sake of achieving higher reliability, conditional connectivity has gradually become well-known. Component connectivity, as a kind of conditional connectivity, is an extension of the classical connectivity. Given a simple and undirected graph G and a nonnegative integer r, the (r+1)-component...

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Published inTheoretical computer science Vol. 883; pp. 44 - 58
Main Authors Sun, Xueli, Fan, Jianxi, Cheng, Baolei, Liu, Zhao, Yu, Jia
Format Journal Article
LanguageEnglish
Published Elsevier B.V 03.09.2021
Subjects
Component connectivity
Diagnosability
Fault tolerance
Hierarchical folded cubic networks
MM model
PMC model
MM model
Fault tolerance
Component connectivity
PMC model
Diagnosability
Hierarchical folded cubic networks
Online AccessGet full text
ISSN0304-3975
1879-2294
DOI10.1016/j.tcs.2021.06.001

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Abstract For the sake of achieving higher reliability, conditional connectivity has gradually become well-known. Component connectivity, as a kind of conditional connectivity, is an extension of the classical connectivity. Given a simple and undirected graph G and a nonnegative integer r, the (r+1)-component connectivity of graph G, say cκr+1(G), is the minimum number of a vertex cut whose removal causes the surviving graph to have at least r+1 components. Another basic parameter of reliability, diagnosability is often related to the number of components in the surviving graph. The (r+1)-component diagnosability, say ctr+1(G), is the maximum size of fault sets subject to at least r+1 components in the surviving graph, provided that all faulty vertices can be detected. A graph is t/k-diagnosable if all faulty vertices can be isolated into a set in which up to k vertices are fault-free, provided that the number of faulty vertices is at most t. As a two-level interconnection network, the hierarchical folded cubic network HFQ(n) possesses a great deal of nice properties. In this paper, we first show that the n-dimensional hierarchical folded cubic network is tightly super connected. Then, we explore that cκr+1(HFQ(n))=r(n+1)−(r2)+1(n≥4,1≤r≤n−4), and obtain that ctr+1(HFQ(n))=(r+1)n−(r2)+2(n≥4,1≤r≤n−4) under the PMC and MM* models. Last, we show that the hierarchical folded cubic network HFQ(n) is [(k+1)n−(k2)+2]/k-diagnosable, where n≥4 and 1≤k≤n−4.
AbstractList For the sake of achieving higher reliability, conditional connectivity has gradually become well-known. Component connectivity, as a kind of conditional connectivity, is an extension of the classical connectivity. Given a simple and undirected graph G and a nonnegative integer r, the (r+1)-component connectivity of graph G, say cκr+1(G), is the minimum number of a vertex cut whose removal causes the surviving graph to have at least r+1 components. Another basic parameter of reliability, diagnosability is often related to the number of components in the surviving graph. The (r+1)-component diagnosability, say ctr+1(G), is the maximum size of fault sets subject to at least r+1 components in the surviving graph, provided that all faulty vertices can be detected. A graph is t/k-diagnosable if all faulty vertices can be isolated into a set in which up to k vertices are fault-free, provided that the number of faulty vertices is at most t. As a two-level interconnection network, the hierarchical folded cubic network HFQ(n) possesses a great deal of nice properties. In this paper, we first show that the n-dimensional hierarchical folded cubic network is tightly super connected. Then, we explore that cκr+1(HFQ(n))=r(n+1)−(r2)+1(n≥4,1≤r≤n−4), and obtain that ctr+1(HFQ(n))=(r+1)n−(r2)+2(n≥4,1≤r≤n−4) under the PMC and MM* models. Last, we show that the hierarchical folded cubic network HFQ(n) is [(k+1)n−(k2)+2]/k-diagnosable, where n≥4 and 1≤k≤n−4.
Author Cheng, Baolei
Liu, Zhao
Sun, Xueli
Fan, Jianxi
Yu, Jia
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Keywords MM model
Fault tolerance
Component connectivity
PMC model
Diagnosability
Hierarchical folded cubic networks
Language English
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Snippet For the sake of achieving higher reliability, conditional connectivity has gradually become well-known. Component connectivity, as a kind of conditional...
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elsevier
SourceType Enrichment Source
Index Database
Publisher
StartPage 44
SubjectTerms Component connectivity
Diagnosability
Fault tolerance
Hierarchical folded cubic networks
MM model
PMC model
Title Component conditional fault tolerance of hierarchical folded cubic networks
URI https://dx.doi.org/10.1016/j.tcs.2021.06.001
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